Mechanism for air-cleaning ears and shelled corn in corn harvesters



24, 1954 N. F. ANDREWS 2,637,132

MECHANISM FOR AIR-CLEANING EARS AND SHELLED CORN IN CORN HARVESTERS Filed Dec. 4, 1950 5 Sheets-Sheet l IN VEN TOR.

[KEAndrews 4, 1954 N F ANDREWS 2,687,132

MECHANISM FbR AlR-CLEANING EARS AND SHELLED (IORN IN CORN HARVESTERS Filed Dec. 4, 1950 3 Sheets-Sheet 2 ET. 150 e: 4

IN V EN TOR.

1V. F A harewx Aug. 24, 1954 N. F. ANDREWS 2,687,132 MECHANISM FOR AIR-CLEANING EARS AND SHELL-ED CORN IN CORN HARVESTERS Filed Dec. 4, 1950 5 Sheets-Sheet 3 INVENTOR.

Affomggs Patented Aug. 24, 1954 I MECHANISM FOR AIR-CLEANING EARS AND SHELLED CORN IN CORN .HARVESTERS Norman F. Andrews, Ankeny, "Iowa, assignor -to Deere Manufacturing 00., "Dubuque, Iowa, a

corporation. of Iowa ApplicationDecember 4, 1950. "Serial No. 199,085

24 Claims.

1 This invention relates to material-handling mechanism and more particularly to conveying and handling structure for husking corn and for separating the ears out of the husks andthe ini 2 ears from the gathering mechanism to their ultimate point of deposit.

According to the present invention, air-current-generating meansis provided with a pair of cidental shelledcorn, together with means for re- 5 branches, one of relatively high capacity and the combining the earsand-shelled corn. other of relatively low capacity, these branches Mechanisms of the general class referredto are being arranged so as to direct air currents in diffound in most conventional corn harvesters. A ferent zones. It is a concomitant feature to dicorn harvester of this type normallycomprisesa vicle the ear andshelled-corn streams so that the mobile frame having meansat the forward end former passes through the high-capacity air blast for gathering corn from standing stalks. Some and the latter passes through the low-capacity machines are provided with cutters for severing air blast. The blasts of air are proportioned so the stalks from the ground before the ears are asto drive the heavier trash fragments out of the moved from the stalks. In any event, the ears, ear stream and the lighter trash fragments out when ultjl'nately removed from th t lk are of the shelled-corn streamwithout the loss of conveyedto husking mechanism conventionally either ears orshelled corn. It is an important comprising one .or more pairs of rotating rolls object-of the invention to provide material-hanwhich grasp the husks and strip the husks from dlingmeansof the character indicated that may the ears. The husks are forced downwardly bebe readilyadaptedto corn harvesters of existing tween the rollsand the earsvare conveyed lengthtypes. Further objects are to provide corn-hanwise of the rolls for ultimate depositina hopper dlingmechanism that isof simplified design and. or receptacle, whencetheears are taken by adeasy to operate and maintain; that comprises ditional conveying means fortransferto a wagon relatively few moving parts; and. that utilizes a or similar vehicle operated in conjunction with single air-current-generating means having a the corn harvester. 2 plurality of bra-nc'hes for directing air currents of v .Inmachines of this type,.fragments of husks. or different capacities. stalks will accompany theears as theyare being The foregoing and other important-objects and transferred from the bushing mechanism to the desirable features inherentin and encompassed hopper or receptacleand it is conventional to by the invention will become apparent as three utilize air-generating means such as fans fordipreferred embodiments of the invention are dis- .recting a blastof air transverselystothe.stream closed in the following detailed description and of moving ears for the, purpose of separating the accompanyingsheets of drawings in which: lighter husk andstalkfragments and other trash Figure l is a fragmentaryplan view of one form from the ears. of the invention.

.It is also. common inthese machines thatasub- 5 Figure 2 is a longitudinal sectional view taken stantial amount of shelled corn will occuras an substantially on the line -2--2 of Figure l and incident to the husking operation. The shelled showing the mechanism related to a mobile carry- .corn or kernels are passed downwardly through ing structure suchas the rear portion of an agrithe husking rolls along with thehusks and are culturaltractor. subsequently screened out from the husks and .4 Figure 3 is-a rear elevational view, partly in ul im t ly c nv ye to e same pp 0r r c psection as viewed along the line 3-4 of Figure '1. tacle that receives the ears, the husks. being ,d'is- Figure4 is a View Similar t Figure 1 b t show charged upon the ground. It has heretofore been ing a second fo m of the invention; common practice to dlrect the blast of a1rfrom Figure 53s? longitudinal sectional View taken the air-generating. means througha zone in which 1 i the husked ears and the shelled-corn stream g ii g if fis e 1 merge. However, because of the relativelylight g f 10113 View weight of the. shelled corn, considerable shelled f cornis 10st, being blown out of the hopper or Figure 7 1s a new corresponding to that shown receptacle along with trash of commensurate 5.0 i Fi u al Showing a third form o t e weight. Theamount of shelled corn thus lost Q may be considerable, depending upon the m- Figure 8 is, a longitudinal sectional View taken ciency or inefficiency of the husking mechanism substantially along. the line -8-.'8. of Figure 7. and other moving parts that ten-d to shell the tFligure 19 ;is..a*rear transverse sectional viewas kernels-from the *ears during the passage pf the seenzalong the line 19-43 OfrFifillIG 8.

3 In general Throughout the specification, the various parts will be referred to as having front and rear ends and upper and lower portions. These terms are used in the interests of clarity and brevity. These terms, like other positional and directional terms used herein, are therefore not to be construed as limiting the invention and the applicability thereof.

Figures 1, 2 and 3 In this form of the invention, the materialhandling means has been illustrated as husking mechanism for a corn picker of the tractormounted type. A portion of a conventional agricultural tractor is shown at Ill. The numeral H3 designates the tractor rear axle structure which has opposite laterally outwardly extending axles 12 (only one of which is shown) on each of which is mounted a relatively large traction wheel M (only one of which is shown) The husking mechanism and supporting structure therefor are designated generally by the numeral Iii. As illustrated in Figure 3, the mechanism may be associated with a corn harvester of the two-row type. Accordingly, a second husking mechanism is indicated generally by the numeral i8. Since the two are symmetrica1 and the parts thereof are symmetrically arranged, only the mechanism or unit It will be described.

This mechanism include means in the form of an. endless chain conveyor 2E3 movable in the direction of the arrow A in Figure l to convey ears of corn from forwardly located gathering mechanism (not shown) over husking means in the form of a pair of oppositely rotating husking rolls 22. The structure in this respect is generally conventional and familiarity with obvious details will be assumed.

The husking unit includes what may be termed a husking box 2% having inner and outer sidewalls 2t and 28. These lie respectively inside and outside the husking rolls 22 and also provide a trough along which the conveyor 20 moves (Figure 3). The trough is, of course, wide at the top to accommodate the conveyor 2%.

As the ears of corn are moved lengthwise over the husking rolls 22, the husks on the ears are grasped by the rotating rolls 22 and are discharged downwardly into husk-receivin means including a conveyor in the form of a rearwardly moving auger l3. As an incident to the husking operation, a substantial quantity of kernels will be removed from the ears and will be discharged downwardly as shelled corn along with the husks to be received in the lower portion of the husk box 28 in which the husk auger 3G is carried. The bottom of the husk-receiving means is in the form of a perforated floor 32 through which the shelled corn is screened from the husks, the perforations in the floor being of an appropriate size so that the floor comprises means for separating the shelled corn from the husks. The shelled corn passes through the perforated floor 32 into a shelled-corn receiving means including a trough 3 1 that parallels the husk trough and in which rotates a longitudinally rearwardly moving shelled-corn auger 36.

As best seen in Figure 2, the husk auger 3t terminates considerably short of the rear or terminal end of the shelled-corn auger 36. Although the shelled-corn trough 34 is shown in section in Figure 2, it is to be understood that this trough is completely enclosed at its sides so 4 that husks discharged at the rear of the husk auger at 38 cannot again be commingled with the shelled corn. The rear end of the shelled-com trough 3 opens at EU to a downwardly and rearwardly inclined chute d2 which provides shelledcorn-directin means for directing the shelled corn downwardly and rearwardly so that it passes by gravity in a relatively narrowly confined stream into a receptacle or hopper means designated generally by the numeral 44. As seen in Figure 3, the hopper has oppositely inwardly inclined walls at and 48, the former to receive ears and shelled corn from the husking mechanism It and the latter to receive ear and shelled corn from the husking mechanism I8. The path of gravitational passage of shelled corn is indicated in Figures 2 and 3 by the relatively light arrows B.

The rear ends of the husking rolls 22 terminate adjacent a continuing floor as over which the ears. are moved rearwardly by the conveyor 20. This portion of the conveyor and the floor comprise ear-discharge means for directing the ears downwardly along and over a rearwardly inclined ramp or chute 52 for discharge by gravity in an ear stream as shown by the relatively heavy arrows C in Figures 2 and 3. It will be seen from these two figures that the shelled corn-stream B and the ear stream C are spatially separated,

both as viewed from the side (Figure 2) and as viewed from the rear (Figure 3). The arrangement of the shelled-corn-discharge means and the ear-discharge means in such manner enables the proper separate treatment of the shelled corn and ears so that the trash may be removed from both streams without loss of either ears or shelled corn, particularly the latter.

The air-current-generating means is designated generally by the numeral M. This means preferably comprises a single fan having a rotating shaft 55 on which is mounted a single rotor 58, enclosed in a housing 60. The housing has a rear wall provided with a circular openin 62 g for the intake of air.

The walls it and d3 of the hopper M converge downwardly to a common point and open into a rearwardly and upwardly extending conveyor in the form of a wagon elevator 64. A screen 66 in the form of an inverted U is connected between the rear Wall or" the fan housing 50 and the upper or forward sloping Wall of the wagon elevator Ed. This screen keeps the air intake clear of trash incidental to operation of the harvester.

The fan housing 68 is provided at one side thereof with a pair of air-current-directin branches 68 and is. As shown, the branch 68 is considerably larger than the branch iii and the latter is tapered, and therefore the former has a much higher capacity. As best seen in Figures 2 and 3, the outlet end of the branch 68 is above the level of the outlet end of the branch 10, thus discharging air or creating an air blast in a stream indicated by the arrows designated D. Because of the fore and aft separation of the branches 68 and 10, as seen at 52 in Figure 2, the outlet ends of the branches are not only at a different level but are separated from front to rear, generally in accordance with the front-to-rear separation of the shelled corn-stream B and the ear stream C. Therefore, as the ears pass downwardly into the hopper it through what may be termed an ear-discharge zone F, the ears are subjected to the blast created by the fan 5d and directed by the branch 68. Stated otherwise, the zone F is re earse substantially at the intersection: of the :earistream C and the air blast D from the large branch 68.

A shelled-corn zone G occurssubstantially at the intersection of the shelled-corn stream 13 and the lighter air "blast E from the smaller branch "I of the fan (Figures i1and 3 particushelled corn along with trash. Therefore, all

shelled -corn that is ultimately delivered toward the hopper 44 will reach the bottom of the hopper to be conveyed bythe wagon elevator 64. Stated otherwise, the shelled corn is delivered in such manner as to by-pass the substantially heavy blast of air normally required to separate trash from the cars. In addition, this shelled corn is subjected to a lighter air cleaning treatment for the purpose of removing trash therefrom.

The symmetrical construction and relation of the component of the right-hand husking mechanism I8 to a high-capacity branch 14 and a low-capacity branch 16 connected to the fan 54 will be obvious without description in detail.

The air blast E: from the smaller branch 10 is further diminished because it is directed against the upper edge at 18 of the hopper wall 46, causing the blast to impinge on this wall portion and thus to afford an obstacle to the escape of lighter kernels that may tend to be blown outwardly by even the small blast.

Figures 4, and 6 The material-handling means shown in this embodiment of the invention includes the basic principles of the embodiment just described, in addition to variations in the form of refinements and improvements. The means includes a lefthand husking unit 80 and a right-hand husking unit 82, the arrangement being such that the mechanism may be adapted to the corn harvester of the two-row type. This may be mounted on a tractor (not shown) or any other appropriate mobile frame (likewise not shown). Both husking mechanisms or units discharge at their rear ends to a common hopper or receptacle means designated generally by the numeral 84. A wagon elevator 86 leads from the central portion of the hopper means and in this respect is similar to the wagon elevator 64 of the embodiment described in connection with Figures 1, 2 and 3.

Since the husking mechanisms 80 and B2 are symmetrical and function in identical manners, only the left-hand mechanism will be described in detail.

This mechanism or unit comprises a husking box 88 having inner and outer side walls Hand 92 between the upper portions of which is mounted a pair of rotatable husking rolls 94. Ear-discharge means in the form of a plate 96 is mounted at the rear ends of the husking rolls 94 and a conveyor in the form of an endless chain 98, moving in the direction of the arrow H (Figure 5), moves ears of corn rearwardly over the husking rolls to be first husked and then discharged at 96 by gravity :into the hopper 84. The stream of gravitational discharge of ears by the means just described represented generally :by' the 'heavy arrows identified .by the letter I.

The hopper 84 is constructed with a partition wall I00 which slopes inwardly and downwardly toward the center of the hopper. Husked ears discharged through the stream I pass downwardly over the upper surface of this wall to the wagon elevator :86. I

Husks removed from the ears while the ears pass over the husking rolls 94 are discharged downwardly into receiving means in the form of a trough I02 formed at the bottom of the husk box .88. Kernels removed from the ears incident to the husking operation likewise pass downwardly between the rolls as shelled corn to commingle with the husks in the trough I02. This .trough carries rearwardly moving means in the form of an auger I04 which opens through a rear wall I06 of the hopper 64 to provide huskdischarge means I08 via which the husks are discarded externally of the hopper, to fall upon the ground. A rear portion of the bottom of the trough I02 is perforated at one end to provide for separating the shelled corn from the husks, the perforated portion providing a screen through which the shelled corn can pass to a second receiving means in the form of a trough I I2 disposed transversely relative to the trough I02 and consequently transversely relative to the husking rolls 94.

The opposite sideof the hopper 84 is provided with a partition wall H4 over which ears move from the husking mechanism 82. This .husking mechanism includes a rearwardly moving auger II6 for moving husks and shelled corn longitudinally through a trough II 8, the material passing over a perforated bottom portion I20 through which the shelled corn is screened to drop into a transverse shelled-corn trough I22 in transverse alignment with the shelled-corn trough I I 2. In these troughs are respective means for moving the shelled corn inwardly for commingling with the husked ears at the center of the hopper 84, whence both types of material are moved by the wagon elevator 86. The means for moving the shelled corn here comprises a single transverse rotatable shaft I24 on which is mounted a. pair of oppositely wound augers I26 and I28. The partition walls I00 and H4 are open respectively at I30 and I32 so that the augers I26 and I28 may extend therethrough. These partition walls are further provided respectively with openings I34 and I36, for the purpose to presently appear.

There is associated with the material-handling means just described, means for generating aircurrents. This means is designated generally by the numeral I38 and comprises a single fan having a rotatable shaft I40 and a single rotor I42 enclosed within a fan housing I44. The rear wall of the housing has a circular air intake opening I46 screened by a perforated shield I48 in the form of an inverted U interposed between the fan housing I44 and the wagon elevator 86..

The fan housing is provided at the left-hand side thereof with a pair of air-current directing branches I50 and I52. The branch I50 is substantially larger than the branch I52 and the latter has adjustable means in the form of a damper I53 which provides a restriction therein, whereby the branch I56 has a considerably higher capacity than the relatively smaller branch I52. These branches, as best seen in Figures 5 and 6, are vertically separated to be disposed at different horizontal levels. The branch I50 is so arranged as to direct the relatively heavy or indicated by the arrow M.

aes'msz .7 tense blast of air laterally outwardly as indicated by the arrows J so that this air blast substantially intersects the ear stream I in what may be termed an ear-discharge zone K. Since the air blast directed by the branch I56 is relatively heavy, relatively heavy particles or fragments of trash discharged at 96 with the ears will be blown over the side of the hopper 8d. A similar highcapacity branch I 54 is provided at the other side of the fan housing I 44 to air-clean ears discharged to the hopper 84 by the right-hand husking mechanism 82. The ears at both sides of the hopper pass downwardly respectively over the inclined partition walls I and [I4 without any interference therewith by the low-capacity branch I52 and a second low-capacity branch I56, these branches extending downwardly and outwardly and respectively through the openings I34 and. I36 in the inclined walls It?!) and H4. The branch I56 has a damper I57.

Because the shelled corn discharged through the perforated bottom- III! of the husk-- and shelled-corn trough [82 passes downwardly to the trough I I2, it may be said to move by gravity in a shelled-corn stream indicated by the arrows L in Figures 5 and 6. A similar shelled-corn stream L will be present at the right hand side of the machine. It will be noticed that the spatial separation of the ear stream I and the shelled-corn stream L is further accentuated by the partition wall I053 so that the two streams are also structurally separated. The branch I52 enters through the opening I36 in the partition wall IE6 as aforesaid, and is then directed so as to discharge a relatively low-intensity blast of air as indicated by the dotted arrow M at the left-hand side of Figure 6. A similar result will obtain at the right-hand side of the mechanism, as in- The shelled-corn stream L and the low-intensity air stream M may be said to intersect in a shelled-corn zone N which, as stated above, is structurally spatially separated from the ear-discharge zone K. The lighter blast of air from the branch IE2 is capable of separating light trash from the shelled corn without blowing the shelled corn out of the hopper. A similar shelled-corn discharge zone N will be provided at the other side of the machine.

The left-hand side of the hopper 84 is completed by an outer longitudinal upright wall I58, therefore establishing the hopper 84 as a twocompartment means, one of which receives the ears and the other of which receives (via the trough I I2) the shelled corn. A similar wall ISO is provided at the other side of the hopper. These walls are provided respectively with baflled openings I52 and ltd respectively in alignment with the outlet ends of the low-capacity air branches r52 and Mt.

The shelled-corn troughs II? and I22 are further defined respectively by horizontal separating walls Hit and I68.

Figures 7, 8 and 9 are directed laterally and inwardly by means of a chute I88, whence they pass downwardly in an ear stream designated by the arrows O in Figure 9, passing by gravity into the hopper or receptacle means I14.

Husks and shelled corn removed from the ears during the husking operation pass downwardly between the husking rolls I82 and fall into receiving means in the form of a trough I90, formed at the bottom of the hush box I16. The husks and shelled corn are moved upwardly and rearwardly by an auger I92, which may, of course, be replaced by any equivalent means. The upper or rear portion of the trough I92 is provided with a perforated bottom I94 which provides means for separating the shelled corn from the husks, the rear end of the trough I96 being open at I96 so that the husks may be discharged or discarded externally of the hopper I14. The shelled corn passing through the perforated bottom I94 moves downwardly by gravity as indicated by the arrows P in Figures 8 and 9. The floor of the chute 88 thus structurally and spatially separates the ear stream 0 from the shelled-corn stream P, the structural separation being accomplished by a funnel-like structure including walls I98 and 200 shaped to confine the shelled-corn stream to the area or zone indicated.

Air-current-generating means designated generally by the numeral 262 is situated over the hopper I'M intermediate the husking units I16 and I72. This means comprises a single fan having a fan shaft 284 and a single rotor 266 enclosed in a fan housing 268. The rear wall of the housing has an air intake opening 2 I (l screened by an inverted U-shaped screen 2I2 positioned between the rear wall of the fan housing and the front wall of a rearwardly and upwardly extending wagon elevator 2M joined to the hopper I14 at its lower central portion.

The fan housing is provided at its left hand side with a pair of air outlet branches 2I6 and 228, the former being substantially larger than the latter and the latter having adjustable damper or restriction means 2H3, whereby the branch ZIG has a substantially larger capacity. The branch 2H3 is at a somewhat higher level than the smaller branch 2E8 and is arranged to direct a blast of air outwardly along a path indicated by the arrows Q in Figure 9. The blast of air intersects the ear stream 0 in what may be termed an ear-transfer zone B, and the air blast at Q acts to air-clean the ear stream, thus blowing particles of trash and other fragments outwardly as the ears pass by gravity into the hopper H4.

The lower-capacity branch 2I8 is disposed at a lower level and extends laterally outwardly to a greater extent than does the larger branch 2I6.

As in themodification previously described, the ear stream and the shelled-corn stream are spatially separated and are subject to air blasts of different intensities commensurate with the size of the material being moved, therefore avoiding subjecting the lighter material to a heavier blast of air and consequently avoiding the loss of shelled corn along with trash fragments. After the two streams pass their respective air-directing branches, they are commingled in the hopper I 14 for common transfer by the wagon elevator 214.

The opposite side ofCthe fan 202 is provided with a pair of outlet or air-directing branches 220 and 222, the former being a large branch and the latter a small branch having a damper 223.

. These branches direct air currents on streams of cars and shelled corn discharged by the righthand husking unit I12 in a manner similar to that previously described.

Summary In all forms. of the invention illustrated, there is. the common principle of keeping lighter and heavier materials separate for the purpose of subjecting these materials separately to air currents or air blasts of different intensities, there- 7 by avoiding the. inadvertent separation of material that is desired to be retained. In many cases, the shelled corn will be considerably lighter than trash fragments discharged with ears, and the subjecting of the. commingled stream of ears and shelled corn to a. relatively heavy blast of air results in the loss of a substantial amount of shelled corn. According to the present invention, the shelled corn is first screened by passage with the husks through the husk-receiving means and over the perforated screen, whereupon the shelled corn is additionally separated from large fragments of husks, and all that remains mixed with the shelled corn are finer fragments of trash such as dust and. the like that can be readily separated from the shelled corn by the relatively light, air blast. It is also a common feature of all forms of the invention that, although the ears and shelled corn are. initially separated, they are returned and mixed or commingled for ultimate discharge by a single conveyor, which is desirable. At the same time, the separation is maintained so that the two materials are separately subjected to the two different air blasts, as stated above.

Various other features and advantages of the invention not specifically enumerated herein will undoubtedly occur to those versed in the art, as likewise will numerous modifications and alterations in the preferred embodiments of the invention illustrated, all of which may be achieved without parting from the spirit and scope of the invention asdefined in the appended claims.

What is claimed is:

1. In corn-husking mechanism wherein ears of corn are husked and discharged to a receptacle means and husks and shelled corn removed from the ears as an incident to the bushing operation are separated from each other and the shelled 1 corn discharged to saidreceptacle means and the husks discharged externally of said receptacle means, the improvement residing in mechanism for air-cleaning the ears and shelled corn, comprising: means for directing the ears from the husking mechanism to the receptacle means through an ear-transfer zone; means. for directingtheshelled corn from the husking mechanism toithe receptacle means through a shelled-corntransfer. zone spatially separate from. the car:-

10 transfer zone; and air-current-generating means having a pair of air-current-directing elements, one of relatively low capacity positioned to act in the shelled-corn-zone, and the other of rela-.

tively higher capacity positioned and confined to act in the ear-transfer zone.

2. The invention defined in claim 1, further characterized in that: the earrdirecting means is at a relatively high level and is effective to cause ears to move downwardly through the eartransfer zone to the receptacle means; the shelled-corn-directing means is at a relatively lower level and is effective to cause the shelled corn to move downwardly through the shelledcorn-transfer zone tothe receptacle means; and the highand low-capacity air-current directing elements are respectively at relatively high and low levels. 1

3. The invention tdefined in claim 1, further characterized in that: the air-current directing means comprises a single fan housing containing a fan rotor therein and the air-current-directing elements consist of a pair of air-outlet branches leading from the housing.

4. The invention defined in claim 1, further characterized in that: the ear-directing means and the shelled-corn-directing means are positioned side-by-side and structurally separate so as to respectively direct ears and shelled corn in spaced apart parallel streams respectively through the ear-transfer and shelled-corntransfer zones; and the air-current-directing elements are spaced apart on the order of the spacing of said parallel streams.

5. The invention defined in claim 4, further characterized in that: the structural separation of the ear-directing means and the shelled-corndirecting means is efifected by a pair of parallel inclined chutes offset vertically and discharging by gravity into the receptacle means, each chute having a terminal discharge end, and the discharge end of one chute terminating short of that of the other to effect the gravitational discharge of ears and shelled corn in spaced apart substantially vertical streams through their respective zones.

6. The invention defined in claim 1, further characterized in that: the ear-directing means and the shelled-corn-directing means comprise a pair of structurally separate chutes leadin to the receptacle means and having discharge ends offset to effect gravitational transfer of cars and shelled corn in separate streams res ectively through the ear-transfer and shelled-corn-transfer zones; and the air-current-directing elements are positioned to act respectively on upper portions of said streams.

7. In corn-husking mechanism wherein ears of corn are husked and discharged to a walled receptacle means and husks and shelled corn removed from the ears as an incident to the husking operation are separated from each other and the shelled corn discharged to said receptacle means and the husks discharged outside said receptacle means, th improvement residing in mechanism for air-cleaning the ears and shelled corn, comprising: air-current-generating means having a pair of separate air-current-directing branches, one of relatively high capacity and the other of relatively lower capacity positioned in spaced apart relationship intermediate the husking mechanism and the receptacle means; means for effecting the transfer of cars from the husking mechanism to the receptacle means in a stream exposed to the high-capacity branch of the air-current-generating means; and separate means for efiecting the transfer of shelled corn from the huslring mechanism to the receptacle means in a separate stream exposed only to the low-capacity branch of said air-current-generating means.

8. The invention defined in claim '7, further characterized in that: a partition wall is provided in the receptacle means and said wall has an opening therein; the high-capacity branch of the air-current-generating means is disposed at a first side of said wall and the low-capacity branch extends through said opening to a second side of the wall; the ear-transfer means and the shelledcorn-transfer means are arranged to direct the ear stream and the shel1ed-corn stream respectively to the first and second sides of the wall so that the wal1 separates said streams and so that the ear stream and the shelled-corn stream are respectively exposed to the highand low-capacity branches of the air-current-generating means; means is provided at the second side of the wall for receiving shelled corn from the shelled-corn stream after the shelled corn has been exposed to-the low-capacity branch;

and means is provided for moving the shelled corn from said receiving means to the receptacle means at said first side of the wall.

9. The invention defined in claim 8, further characterized in that: the shelled-corn-transfer means comprises a conveyor at the second side of the wall and above the level of the low-capacity branch and having a perforated bottom through which shelled corn may drop past the lowcapacity branch and into the receiving means; and the means for moving the shelled corn from the second side to the first side of the wall comprises a cross conveyor communicating the receiving means and the receptacle means.

10. The invention defined in claim '7, further characterized in that: the ear-transfer means comprises an inclined wall having upper and lower sides and a terminal end and down which upper side ears move by gravity to said terminal end, and said high-capacity branch is disposed at the upper side of said wall ahead of the terminal end thereof to act on and to airclean ears moving thereover; said wall having an opening therethrough and the low-capacity branch extending through said opening at the lower side of said wall; and the shelled-corntransfer means comprises a conveyor for delivering shelled corn to the lower side of the wall and past the low-capacity branch for air-cleaning thereof, and a second conveyor for delivering cleaned shelled corn to the terminal end of the inclined wall for commingling with the cleaned ears.

11. The invention defined in claim 7, further characterized in that: the ear-transfer means comprises an inclined wall having upper and lower sides and a terminal end and down which upper side ears move by gravity to said terminal end, and said high-capacity branch is disposed at the upper side of said wall ahead of the terminal end thereof to act on and to air-clean ears moving thereover; the low-capacity branch by-passes the wall and extends at the lower side of said wall; and the shelled-corn-transfer means comprises a conveyor for delivering shelled corn to the lower side of the wall and past the lowcapacity branch for air-cleaning thereof, and a second conveyor for delivering cleaned shelled corn to the terminal end of the inclined wall for commingling with the cleaned ears.

12. The invention defined in claim '7, further characterized in that: the air-current-generating mean comprises a single fan housing containing a fan rotor, and the two branches lead from said housing.

13. The invention defined in claim '7, further characterized in that: the high-capacity and lowcapacity branches of the air-current generating means are respectively at relatively high and lower levels; and the ear-transfer and shelledcorn-transfer means discharge ears and shelled corn respectively at relatively high and lower levels for gravitational movement in separate streams respectively past said highand lowcapacity branches.

14. Corn-handling mechanism, comprising: husking means having inlet and outlet ends and over which ears of corn are moved toward said outlet end for the removal of husks from such ears, said mechanism being operative to discharge downwardly such husks and shelled corn resulting from the husking operation; hopper means at the outlet end of the bushing mechanism and having a generally upright wall beneath said outlet end; means at said outlet end for directing ears in an exposed, defined stream over said Wall and into the hopper means; means below the husking mechanism and ahead of said wall for receiving husks and shelled corn from said mechanism and including a conveyor for moving husks and shelled corn toward the hopper means, said conveyor having a husk outlet for discarding husks exteriorly of said hopper means and further having a perforated bottom for discharging shelled corn separate from the husks; means associated with the aforesaid conveyor and by-passing said hopper wall for receiving separated shelled corn from said perforated bottom and for delivering such shelled corn to said hopper means in an exposed, defined stream separate from the aforesaid ear stream; and aircurrent-generating means having a pair of aircurrent branches inwardly of said wall, one branch having a relatively high capacity and positioned to act solely on the ear stream in a direction transverse to said ear stream, and the other branch having a relatively lower capacity and positioned in spaced apart relation to the high-capacity branch to act on the shelled-corn stream in a direction transverse to said shelled corn stream.

15. The invention defined in claim 14, further characterized in that: both the ear-directing means and the means for delivering shelled corn to the hopper means discharge over the hopper wall in spaced apart relationship so that the ears and shelled corn are directed to the hopper means by gravity and in parallel, separate streams respectively past the highand lowcapacity branches of the air-current generating means.

16. The invention defined in claim 14, further characterized in that: the conveyor for moving husks and shelled corn toward the receptacle means extends inwardly of the hopper means, the perforated bottom thereof is within the hopper means, and the husk outlet is disposed beyond the hopper means to discharge husks outside said hopper means.

17. The invention defined in claim 14, further characterized in that: the hopper means has a partition wall normal to the upright wall and separating the hopper means into first and second parts; the ear-directing means is arranged to direct the ear stream into the first part and the high-capacity branch of the air-current- 13 generating means is confined to said first part; the conveyor for moving husks toward the hopper means enters said second part of the hopper means and is constructed and arranged so that the perforated bottom discharges shelled corn resting means is arranged to direct the husked ear stream downwardly over said wall into the first part of said hopper means; the high-capacity branch is positioned and confined within the first part to act on an upper portion of said ear stream; said sloping wall has an opening therein and the low-capacity branch extends through said opening and into the second part of the hopper means; the conveyor for moving husks and shelled corn enters said second part and the perforated bottom is positioned to drop shelled corn past the air-currents directed by said lowcapacity branch, and the husk outlet is arranged to discard husks outside the hopper means; said sloping wall has a second opening therein below the level of said perforated bottom; and an aircleaned-shelled-corn conveyor extends from below said perforated bottom, through said second opening in the sloping wall and communicates with the first part of the hopper below the highcapacity branch.

19. The invention defined in claim 18, further characterized in that: both conveyors are auger conveyors and arranged at right angles to each other.

20. In a corn-handling machine: corn-husking mechanism having inlet and outlet ends and means for moving ears of corn over said mechanism from the inlet end to the outlet end thereof receptacle means proximate to the outlet end of the corn-husking mechanism for receiving hushed ears from said mechanism; ear-discharge means intermediate the outlet end of the husking mechanism and the receptacle means for ,directing husked ears to said receptacle means through an ear-discharge zone; means associated with the husking mechanism ahead of the receptacle means for receiving husks and shelled corn from said mechanism as an incident to the bushing 7 operation; means in the huskand shelled-cornreceiving means for separating shelled corn from husks; means communicating with the separating means for directing husks outside the receptacle means; second means communicating with the and. having a discharge end for discharging husked ears; means below the husking means assures into which husks and incidental shelled? corridrops from the husking means; hopper means at the discharge end of the husking means and having a partition dividing said hopper means into first and second parts; means for directing hushed ears from the discharge end of the husking means exclusively to the first hopper part; corn-collecting means at the bottom of the hop-- per means and in communication with said first hopper part to receive husked ears therefrom; conveyor means for moving huslrs and shelled corn from the aforesaid huskand shelled-corn receiving means toward the second hopper part, said conveyor means including elements for separating; the shelled corn from the husks and elements for discharging the separated shelled corn within said second hopper part and for discarding separated husks outside said second hopper part; and a shelled-corn conveyor for receiving shelled corn from the separating and discharging elements and for moving such shelled corn from Within said second part to the aforesaid corn collecting means for commingling of such shelled corn with the hushed ears.

22. Corn-handling mechanism, comprising: elongated husking means for removing husks from corn ears and havinga discharge end for discharging hushed ears; means below the husking means into which husks and. incidental shelled corn. drops from the huslring means; hopper means at the discharge end of the husking means and having a partition dividing said hopper means into first and second parts separated in a direction transverse to the length of the husking means; means for directin husked ears from the discharge end of the huskin means exclusively to the first hopper part; corn-collecting means at the bottom of the hopper means and in communication with first hopper part to receive husked ears therefrom; conveyor means running lengthwise as respects the husking means and spaced laterally from said corn collecting means for moving hus rs and shelled corn from the aforesaid huskand shelled-corn receiving means toward the second hopper part, said conveyor including elements for separating the shelled corn from the husks and elements for di charging the separated shelled corn within said second hopper part and for discarding separated husks outside said second hopper part; and a laterally extending shelled-corn conveyor for rece vin shelled corn from the separating and discharging element and for moving such shelled corn from within second part to the aforesaid corn collectinc" means for cornminglin of such helled corn with the husked ears.

22, In a corn handling machine? corn-husking mechanism having inlet and outlet ends and means for moving ears of 'corn over said mechanism from the inlet end to the outlet end thereof; receptacle means proximate to the outlet end of the corn-husking mechanism for receiving hushed from said mechanism; ear-discharge means intermediate the outlet end of the huslring mechanism and the receptacle means for directing hushed ears to said receptacle means throu h ear-discharge zone; aircurrent-generating means havin branch for directing air through the ear-discharge zone to air-clean ears passing through said zone; means associated with the husfaing mechanism ahead of the receptacle means for receiving husks and shelled corn from said mechanism as an incident to the bushing operation; means in the huskand shelled-cornreceiving means for separating shelled corn from 15 husks; means communicating with the separating means for directing husks outside the receptacle means; and means communicating with the separating means for receiving shelled corn and for moving such shelled corn to the receptacle means in a stream Icy-passing the ear-discharge zone.

24. The invention defined in claim 1, further characterized in that: the low-capacity element has adjustable means therein to vary its capacity.

References Cited in the file of this patent UNITED STATES PATENTS Name Date Trimmer Sept. 29, 1863 Kibler Nov. 26, 1878 Number Re. 1,545 210,333

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